JP2004357188A - Control system, control apparatus, data output device, control method, recording medium and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To indicate a control panel of an apparatus to be controlled including operations between apparatuses to be controlled in accordance with a plurality of control apparatuses which are connected via a network. <P>SOLUTION: When a panel element with conditions is selected by user's operation, a control apparatus 1 transmits user action data corresponding to the selecting operation to an apparatus 2 to be controlled and judges on the basis of apparatus information stored in a RAM 12 beforehand the conditions added to the panel element, namely, whether the other apparatus 3 to be connected is connected or not and when said conditions are fulfilled as a result, the control apparatus 1 changes the indicated control panel on the basis of control panel data. Thus, even when a plurality of apparatuses to be controlled are connected to the control apparatus via the network, the control panel is changed in accordance with the connected apparatus to be controlled and can be indicated on the control apparatus. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a control system, a control device, a data output device, a control method, a recording medium, and a program, and is particularly suitable for use in a control system for remotely controlling a plurality of devices connected via a network.
[0002]
[Prior art]
As one of the control systems in which a control device (hereinafter, referred to as “controller device”) remotely controls the operation of a controlled device (hereinafter, referred to as “target device”) via a network, as will be described below. Various control systems have been considered (for example, see Patent Document 1).
[0003]
First, the target device transmits an operation panel stored in advance in an internal storage medium or the like to the controller device via the network in order to enable external operation control. The controller device displays an operation panel based on the received operation panel on the display. Then, when the user performs an operation such as selecting a button in the displayed operation panel using a pointing device or the like, information corresponding to the operation is transmitted from the controller device to the target device. The target device controls the inside of the target device or transmits a new operation panel to the controller device according to the information corresponding to the operation. By repeatedly performing such an operation, the controller device can remotely control the operation of the target device via the network.
[0004]
[Patent Document 1]
JP 2000-350270 A
[0005]
[Problems to be solved by the invention]
However, in the above-described control system, since the target device cannot obtain information on another target device connected to the controller device, the operation panel transmitted from the target device to the control device is performed only by the target device. The operation was made controllable.
[0006]
That is, even if a plurality of target devices are connected to the controller device via the network, the plurality of target devices are independently controlled. Therefore, the operation of the target device that can be controlled by the controller device is limited to the operation that can be performed between the controller device and one target device, and only with one target device. Therefore, the control system described above displays an operation panel capable of instructing an operation performed between a plurality of connected target devices, for example, an operation performed in conjunction with a plurality of target devices, And could not be performed.
[0007]
The present invention has been made in view of such a problem, and even if a plurality of controlled devices are connected to a control device via a network, the controlled devices are controlled in accordance with the plurality of connected controlled devices. It is an object of the present invention to be able to display an operation panel of a controlled device including an operation between control devices.
[0008]
[Means for Solving the Problems]
In the control device of the present invention, a logical condition relating to the connection of a second controlled device different from the first controlled device, which is transmitted from the first controlled device connected via the network, is added. A display control means for receiving an operation panel and displaying an operation panel for controlling the first controlled device on a display means based on the operation panel; and the first controlled object selected from the operation panel. Selecting means for selecting control to be performed on the device; and selecting information transmitting means for transmitting selection information by the selecting means to the first controlled device. The display control means includes the selecting information and the logic. An operation panel displayed on the display means can be changed based on a condition.
[0009]
The data output device of the present invention is a data output device that can be controlled by a control device connected via a network and has a function of outputting at least one of image data and audio data. Can add a logical condition relating to connection of different controlled devices, a panel information transmitting means for transmitting an operation panel for controlling the data output device to the control device, and a control selected from the operation panel. Selection information receiving means for receiving selection information related to the control device from the control device, based on the selection information received by the selection information receiving means, operation control means for performing operation control inside the data output device, characterized by comprising I do.
[0010]
Another control device of the present invention is a control device capable of receiving and outputting at least one of image data and audio data from at least one or more controlled devices connected via a network, and Storage means for storing the device information, display control means for receiving an operation panel transmitted from the controlled device, and displaying an operation panel based on the operation panel on a display means, and selection means for selecting the operation panel And selection information transmitting means for transmitting selection information from the selection means to the controlled device; and decoding means for decoding a logical condition added to the operation panel. Is characterized in that the display content of the is changed.
[0011]
Another data output device of the present invention is a data output device having a function of outputting at least one of image data and audio data to a display device, and panel information transmitting means for transmitting an operation panel of the data output device; Selection information receiving means for receiving information selected by the operation panel; operation control means for controlling the data output device based on the information received by the selection information receiving means; and operation based on the operation panel Condition transmitting means for transmitting conditions for displaying a panel on the display device together with the operation panel.
[0012]
Another data output device of the present invention is a data output device having a function of outputting at least one of image data and audio data to a display device, and panel information transmitting means for transmitting an operation panel of the data output device; Selection information receiving means for receiving information selected by the operation panel; operation control means for controlling the data output device based on the information received by the selection information receiving means; and The operation panel is prepared for each controlled device different from the data output device, and all the operation panels are transmitted simultaneously.
[0013]
Another data output device of the present invention is a data output device having a function of outputting at least one of image data and audio data to a display device, and panel information transmitting means for transmitting an operation panel of the data output device; Selection information receiving means for receiving information selected by the operation panel; operation control means for controlling the data output device based on the information received by the selection information receiving means; and operation based on the operation panel And a condition result receiving means for receiving a result of a condition for displaying the panel on the display device.
[0014]
In the control system of the present invention, a logical condition relating to connection of a second controlled device different from the first controlled device, which is transmitted from the first controlled device connected via the network, is added. Display means for receiving an operation panel and displaying an operation panel for controlling the first controlled device based on the operation panel; and Selecting means for selecting control to be performed; and selecting information transmitting means for transmitting selection information by the selecting means to the first controlled device, and displaying on the display means based on the selecting information and the logical condition. The operation panel to be operated can be changed.
[0015]
According to the control method of the present invention, a logical condition relating to connection of a second controlled device different from the first controlled device and transmitted from the first controlled device connected via the network is added. A display control step of receiving an operation panel and displaying an operation panel for controlling the first controlled device on display means based on the operation panel; and controlling the first controlled device from among the operation panels A selection step of selecting control to be performed on the device, a selection information transmission step of transmitting selection information obtained by the selection in the selection step to the first controlled device, and, according to the selection information and the logical condition, A display changing step of changing an operation panel displayed on the display means.
[0016]
The program according to the present invention is an operation which is transmitted from a first controlled device connected via a network and to which a logical condition relating to connection of a second controlled device different from the first controlled device is added. A display control step of receiving a panel and displaying an operation panel for controlling the first controlled device on display means based on the operation panel; and the first controlled device from the operation panel A selection step of selecting control to be performed on the selected control apparatus; a selection information transmission step of transmitting selection information based on the selection in the selection step to the first controlled apparatus; And a display change step of changing an operation panel displayed on the display means.
[0017]
A computer-readable recording medium according to the present invention is a computer-readable recording medium comprising: a logical condition relating to connection of a second controlled device different from the first controlled device, transmitted from a first controlled device connected via a network. Receiving an operation panel to which is added, and displaying a control panel for controlling the first controlled device on display means based on the control panel; and A selection step of selecting control to be performed on one controlled apparatus, a selection information transmitting step of transmitting selection information based on the selection in the selection step to the first controlled apparatus, the selection information and the logical condition And a display change step of changing an operation panel displayed on the display means in accordance with the program. That.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration example of a control system (hereinafter, also simply referred to as “system”) according to the first and second embodiments of the present invention.
In FIG. 1, as an example, a system in which a control device (controller device) 1 that performs control and two controlled devices (target devices) 2 and 3 that receive control are connected via a network. Is shown.
[0019]
The network connecting the controller device 1 and the target devices 2 and 3 will be described as a network conforming to the IEEE 1394 standard, but may be another network such as the Internet, for example. Although FIG. 1 shows a system including one control device 1 and two target devices 2 and 3, the number of controller devices and target devices may be further increased.
[0020]
In FIG. 1, a controller device 1 controls a target device 2 or 3 via a network. The controller device 1 includes a video and an audio related to the video data and the audio data supplied from the target devices 2 and 3 and a video related to a television signal received by the antenna 4 (hereinafter, simply referred to as “television signal”). And a display device 10 for outputting audio. The controller device 1 is, for example, a digital television (TV), a personal computer, or the like.
[0021]
Further, the controller device 1 receives operation panel data (including GUI (graphical user interface) video data and audio data) transmitted from the target devices 2 and 3 and causes the display device 10 to display the operation panel. can do. Further, the controller device 1 transmits information (command data) for instructing the operation selected by the user using the remote controller 18 while looking at the operation panel to the target devices 2 and 3. In the following description, this “operation selected by the user” is referred to as “user action”.
[0022]
Although the controller device 1 includes the display device 10 in FIG. 1, the controller device 1 and the display device 10 may be separate bodies (display devices in separate housings or the like). In that case, the interface between the controller device 1 and the display device 10 uses, for example, an NTSC composite signal, a digital video signal, an audio signal, and the like. Further, the interface may be based on the IEEE1394 standard.
[0023]
Each of the target devices 2 and 3 has a function of inputting and outputting video data and audio data, and has a communication unit (not shown) for transmitting operation panel data and receiving command data. The target devices 2 and 3 are, for example, a video deck, a printer, and the like. Control inside the target devices 2 and 3 is performed based on the target devices 2 and 3 themselves, command data input via a network, and the like. Further, the target devices 2 and 3 output operation panel data necessary for receiving control via the network to the controller device 1.
[0024]
The antenna 4 is for receiving television signals such as satellite broadcasts and terrestrial waves.
Reference numeral 5 denotes a tuner, which converts a television signal received by the antenna 4 into a digital signal, and further demodulates a video signal and an audio signal which have been compressed and modulated by the television to convert the signal into an MPEG-2 transport stream. Here, in the transport stream, compressed video data (compressed video data), compressed audio data (compressed audio data), data of data broadcast (data broadcast data), and the like are packetized into a plurality and mixed. Stream.
[0025]
Reference numeral 6 denotes a descrambler, which decrypts (decrypts) encrypted data in the compressed video data and compressed audio data supplied from the tuner 5. To decrypt the data, the KEY information written in the IC card connected to the IC card control unit 20 is input to the descrambler 6 via the CA (Conditional Access) interface 19. Then, the descrambler 6 changes the combination of the compressed video data and the compressed audio data based on the input KEY information, and transports the transport data including normal (unencrypted) compressed video data and compressed audio data. Convert to stream.
[0026]
Reference numeral 7 denotes a demultiplexer that separates each packet of compressed video data, compressed audio data, and data broadcast data from the transport stream supplied from the descrambler 6. Reference numeral 8 denotes an MPEG2 decoder that decodes the compressed video data separated by the demultiplexer 7 and converts it into video data. Reference numeral 25 decodes the compressed audio data separated by the demultiplexer 7 and converts the compressed audio data into audio data. Audio decoder.
[0027]
A graphic processor 9 converts the display format (the number of pixels, the frame frequency, and the scanning method) of the video data, and controls the image data drawn by the CPU 11. Reference numeral 28 denotes a video memory for storing video data and image data of a video to be displayed on the display device 10.
The display device 10 displays a television broadcast video related to a television signal and an image related to image data drawn by the CPU 11. In addition, the display device 10 includes a speaker for outputting television broadcast sound or the like related to a television signal.
[0028]
The CPU 11 controls each functional unit of the controller device 1 according to a control procedure (program) stored in a flash ROM (flash memory) 13. The RAM 12 is used as a work memory when the CPU 11 executes a program, and as a temporary storage for controlling each functional unit of the controller device 1. The flash ROM 13 is a rewritable memory for storing a program for the CPU 11, storing device information of the connected target devices 2, 3, and the like.
In the present embodiment, the functions of the display control unit, the selection unit, the decoding unit, and the storage unit of the present invention are realized by the CPU 11, the RAM 12, the flash ROM 13, and the like.
[0029]
Reference numeral 14 denotes an external device input / output link unit, which performs transmission control (establishment of a data link, etc.) for communicating various video data, audio data, and command data between the controller device 1 and the target devices 2 and 3. Do. Reference numeral 15 denotes an external device input / output physical (PHY) unit, which directly receives signals from the connected target devices 2 and 3 to detect a connection state, and transmits the information and communication data from the target devices 2 and 3 to each other. Is supplied to the external device input / output link unit 14.
[0030]
Reference numeral 16 denotes a serial input / output unit, which supplies infrared data (a signal from the remote controller 18) received from the infrared receiver 17 and converted into a logic signal from the remote controller 18 to the CPU 11. The remote controller 18 is for the user to select a panel element of the operation panel or to select a channel of a television to be viewed while watching a display image displayed on the display device 10.
[0031]
Reference numeral 21 denotes a modem for making it possible to externally read and write data in the IC card via the IC card control unit 20. A network server 22 manages a broadcast viewing history and manages billing information, and is communicably connected to the controller device 1 via a network 29 such as the Internet. Reference numeral 23 denotes a broadcasting station that performs television broadcasting, and reference numeral 24 denotes a television broadcasting satellite (a transmitting terrestrial antenna when the television broadcasting is a terrestrial wave).
[0032]
A mixer 26 mixes audio data from the audio decoder 25 with audio data from the audio processor 27. The audio processor 27 generates audio data according to a command from the CPU 11. The mixing of the audio data by the mixer 26 may be performed by digital processing or analog processing.
[0033]
(1st Embodiment)
First, an example of the operation panel displayed on the display device 10 will be described with reference to FIGS. FIG. 2 is a diagram for explaining an operation panel displayed when the controller device 1 and one target device 2 are connected via a network, and FIG. 3 is a diagram illustrating the controller device 1 and two target devices. FIG. 4 is a diagram for explaining an operation panel displayed when the devices 2 and 3 are connected via a network.
[0034]
When the controller device 1 and only one target device 2 are connected via a network as shown in FIG. 2A, as shown in FIG. 2B for controlling only the target device 2 The operation panel is displayed on the display screen 105 of the display device 10. In FIG. 2B, reference numerals 101, 102, and 103 denote panel elements (such as a GUI) constituting an operation panel.
[0035]
When the controller device 1 and two target devices 2 and 3 are connected via a network as shown in FIG. 3A, the target devices 2 and 3 are connected according to a user action. An operation panel including a panel element for controlling an operation that can be executed by the operation is displayed on the display screen 105. For example, when the user selects the panel element 102 using the remote controller 18, the operation can be performed between the target devices 2 and 3 in addition to the panel elements 101, 102, and 103 as shown in FIG. A panel element 104 for controlling the printing process is displayed.
[0036]
Hereinafter, first, a case where the controller device 1 and only one target device 2 are connected as shown in FIG. 2 will be described. Next, a case where the target device 3 is further connected to the controller device 1 will be described. That is, a case where the controller device 1 and the two target devices 2 and 3 are connected via a network as shown in FIG. 3 will be described.
[0037]
<When the controller device 1 and one target device 2 are connected>
FIG. 4 is a diagram showing an example of a transfer sequence of operation panel data between the controller device 1 and the target device 2.
(1) After turning on the power (turning on the power), the controller device 1 detects the target device 2 connected via the network by the external device input / output physical unit 15. The detection of the target device 2 can be performed, for example, by a method defined in the IEEE 1394-1995 specification. The target device 2 transmits a connection recognition signal including device information (model ID, manufacturer ID, and the like) to the controller device 1 (S401).
[0038]
(2) The CPU 11 in the controller device 1 inputs the connection recognition signal from the target device 2 received by the external device input / output physical unit 15 through the external device input / output link unit 14 and obtains the connection recognition signal from the connection recognition signal. The device information (model ID, maker ID, etc.) of the target device 2 is stored in the RAM 12.
The CPU 11 assigns a node number to the detected (recognized) target device 2 and transmits the data to the target device 2 (S402).
[0039]
(3) The controller device 1 transmits a confirmation request signal (Gui_update Status command) for confirming whether or not the operation panel data is held in the target device 2 to the target device 2 (S403). The transmission of the confirmation request signal is performed under the control of the CPU 11 by a program stored in the flash ROM 13. The confirmation request signal is a signal (command) defined in advance between the controller device 1 and the target device 2, and has a specific format via the external device input / output link unit 14 and the external device input / output physical unit 15. It is transmitted to the target device 2.
[0040]
(4) The target device 2 transmits response information (response) to the controller device 1 as a response to the confirmation request signal (S404). The CPU 11 recognizes from the response information whether the target device 2 holds the operation panel data.
[0041]
(5) Next, in order to receive operation panel data from the target device 2, the CPU 11 secures a plug for establishing a connection when performing data transfer with the target device 2. This “secure plug” does not add a destination address to each piece of data to be transferred, but determines a plug address between devices that transmit and receive data, and collects data toward the plug address. This is necessary for transmitting a large amount of image data, and is advantageous when transferring a large amount of image data.
[0042]
Specifically, the controller device 1 transmits a plug address notification signal (Allocate_attach command) for notifying the plug address of the receiving side (controller device 1) to the target device 2 (S405). The target device 2 transmits the destination plug address as response information to the controller device 1 as a response to the plug address notification signal (S406). As a result, the transfer destination address is known by both the controller device 1 and the target device 2, so that the plug is connected.
[0043]
(6) The CPU 11 stores the plug address information of the target device 2 obtained from the response information as a response to the plug address notification signal in the flash ROM 13.
(7) The CPU 11 transmits an operation panel transfer start request signal (Gui_update Start command) for requesting start of transmission of operation panel data to the target device 2 (S407).
(8) If transmission of operation panel data can be started, the target device 2 transmits response information to the controller device 1 as a response to the operation panel transfer start request signal (S408).
[0044]
(9) When an operation panel display request signal is input by the user using the remote controller 18, the CPU 11 transmits an operation panel request signal (Push_gui_data command) for requesting transmission of operation panel data to the target device 2 (S 409). . (10) If the operation panel data can be transmitted, the target device 2 transmits response information to the controller device 1 as a response to the operation panel request signal (S410), and further connects with the controller device 1. Operation panel data (Panel_data) is transmitted to the plug address (S411).
[0045]
In the first embodiment, the target device 2 transmits operation panel data of an operation panel capable of displaying the four panel elements 101 to 104 as shown in FIGS.
Here, the panel elements 101 to 104 constituting the operation panel include a unique element ID number, an element type (for example, a button and a toggle switch), and a conditional expression (for example, a target device whose model ID is “x”). When connected, an attached panel element is displayed, and display panel data (for example, bitmap data) is added. Note that the panel element 104 is a conditional child panel element of the panel element 102. As described above, when the user action for selecting (pressing) the panel element 102 occurs, and the target device 3 connects to the network. Panel element that can be displayed when connected via
[0046]
FIG. 5 is a diagram illustrating an example of a data format of a panel element. FIG. 5 is an example relating to the panel elements 101 to 104 shown in FIGS. 2 and 3. The data format shown in FIG. 5 is a data format when all the panel elements on the display screen 105 shown in FIG. 3 are transmitted. It is also assumed that the data format is predetermined between the controller device 1 and the target device 2.
In FIG. 5, one large panel constituted by each panel element is defined, and the cooperation (link) relation of each panel element included in the panel is described.
[0047]
In FIG. 5, an area 301 is a header section which defines a data unit for collectively transmitting the display panel data (for example, the process S411 shown in FIG. 4), and describes a data length and the like. . The area 302 stores data such as a display size and a display aspect ratio of the entire operation panel, and describes data for determining a position when the operation panel is displayed on the display device 10. By reading the data in the area 302, the controller device 1 can recognize in which area of the video memory 28 the display panel data of each of the panel elements 101 to 104 is stored, that is, in which area of the display screen.
[0048]
An area 320 describes the contents of the panel elements 101 to 104 linked in the entire operation panel, and areas 321, 322, 323, and 324 store the panel elements 101, 102, 103, and 104. The contents are described respectively. For example, an area 303 in the area 322 is element type information on the panel element 102, and is a button here. The element type includes an icon, a text, and the like, each of which is assigned to a unique code.
[0049]
An area 304 describes an element ID number in which detailed data of the panel element 102 is described. Similarly, an area 305 is element type information on the panel element 104, and an area 306 describes an element ID number in which detailed data of the panel element 104 is described.
[0050]
The region 303 and the region 304 form a pair, and similarly, the region 305 and the region 306 form a pair. When adding a panel element, an element type and an element ID number are added as one set.
[0051]
The controller device 1 can recognize what panel element exists from the data in the area 320. The detailed data of each of the panel elements 101 to 104 specified by the data and the like in the area 304 is read by referring to lower data (data transmitted later) from each element ID number in the transmitted data. be able to.
[0052]
For example, the detailed data of the panel element 102 is described in the area 307 and later (specifically, the area 328) by designating the area 304 (ID = 2). In an area 328 including this area 307, first, data such as a data length and a button size is described. Next, when the panel element 102 is released and pressed by the user using the remote controller 18, each image type (in the present embodiment, a bitmap) and its image data (display panel data) are displayed. The existing element IDs are described in the areas 329 and 330, respectively. The image type and the element ID also exist as a pair.
[0053]
For example, when the button panel element 102 is released, the bitmap data of the area 311 below the element ID = 21 (area 310) is the display panel data to be displayed. Since the panel element with element ID = 21 has no condition, it may be displayed as it is. For example, when the panel element 102 is pressed, the image type (area 308) has the code of the conditional image. Allocated. Therefore, the controller device 1 performs an operation different from the above-described method, first displays the bitmap data of the area 313 below the element ID = 22 (area 312), and reads a condition code 314 described later. Note that the bitmap data (display panel data) in the area 313 is for notifying the user that the panel element 102 has been pressed, and this display panel data is different from the display panel data with ID = 21.
[0054]
Similarly, detailed data of the panel element 101 is described in the area 325, and each image type when the panel element 101 is released and pressed, and an element ID in which the image data exists, are described. These are described in areas 326 and 327, respectively. The area 331 describes the detailed data of the panel element 103, and the area 332 describes the detailed data of the panel element 104.
[0055]
As described above, the element ID is added to each panel element for each state (pressed, released, etc.), and the controller device 1 determines the element data from the entire panel data transmitted. The target display panel data is read based on the ID. When there is a display condition or the like in an element such as an image type under a certain condition (for example, when a button is pressed), the controller device 1 sets a condition code next to the display panel data (bitmap data). Read and execute.
[0056]
The above condition code will be described.
FIG. 6 is a diagram illustrating an example of the condition code. In the condition code, first, a condition command is described in an area 401. The condition command indicates the content of the condition, and FIG. 7 shows an example of the content of the condition. The condition contents include “target device connection (printer)” (code “00”), “target device connection (telephone)” (code “01”), “target device connection (video)” (code “02”), And "Target device connection (audio)" (code "03"). In the first embodiment, the target device connection condition is code “00”.
[0057]
An area 402 describes an element ID paired with each condition command, and FIG. 6 shows that detailed data is described below element ID = 100 (area 406). Note that the content of each element forming a pair with the condition command is predetermined.
[0058]
A logical code is described in the area 403, and an example of the logical code is shown in FIG. In the first embodiment, it is “TRUE (true)” with the code “00”. In other words, if a device with a manufacturer ID and a model ID described below element ID = 100 (area 406) is connected (if the connection condition is “true”), the operation code described in area 404 Will be executed.
[0059]
An example of the operation code described in the area 404 is shown in FIG. In the first embodiment, it is “display” of the code “00”. The element ID paired with the operation code is described in the area 405, and FIG. 6 shows that the detailed data is described below the element ID = 101 (area 407).
Accordingly, in the condition code shown in FIG. 6 in the first embodiment, the panel element 102 of the button is pressed, and the model (target device) described in the area 406 is connected to the controller device 1. In this case, the panel element 104 is displayed.
[0060]
The logical codes shown in FIG. 8 include “NOT (false)” (code “01”), “AND (logical product)” (code “02”), and “OR (logical sum)” (code “ 03 "), and when there are a plurality of conditions such as" AND "and" OR ", an element paired with the condition command is added.
[0061]
The operation codes shown in FIG. 9 also include "not display" (code "01"), "translucent display" (code "02"), and "enlarge and reduce display" (in addition to "display"). Codes “03”, “04”) and the like, and the display attribute of a predetermined panel element can be changed. Further, with respect to audio, the CPU 11 can read audio data from the RAM 12, supply the audio data to the audio processor 27, decode the audio data, and control the audio data via the mixer 26.
[0062]
(11) Upon receiving the operation panel data from the target device 2, the CPU 11 temporarily stores it in the RAM 12. Further, the CPU 11 transfers the display panel data of each panel element to the graphic processor 9 based on the received operation panel data, and draws the display panel data in the video memory 28.
[0063]
Here, the graphic processor 9 may simultaneously process the video data obtained from the television signal and draw the video data on the video memory 28. In this case, the operation panel from the target device 2 may be overwritten with the television image related to the television signal, or may be drawn at a position shifted so as not to overlap the television image.
[0064]
(12) The graphic processor 9 outputs the data in the video memory 28 to the display device 10 in accordance with the refresh rate of the display screen of the display device 10, and operates the panel elements 101, 102, and 103 received from the target device 2. The panel is displayed on the display device 10.
(13) The user using the controller device 1 selects one of the panel elements 101 to 103 using the remote controller 18 while viewing the display screen (operation panel) of the display device 10.
[0065]
The above-described selection of the panel element is performed, for example, by using a remote controller 18 as shown in FIG.
First, the user presses the button 206 when performing an operation on the operation panel. A code (data) corresponding to the button 206 transmitted from the remote controller 18 in response to this operation is input to the CPU 11 via the infrared light receiving unit 17 and the serial input / output unit 16. The CPU 11 recognizes a code corresponding to the button 206 and, when the up, down, left, and right arrow keys 201, 202, 203, and 204 are pressed thereafter and receives a code corresponding to the operation, operates the operation panel (panel element). Understand user action code. This function continues until the button 206 is pressed again and the code corresponding to the button 206 is received.
[0066]
Since the CPU 11 recognizes the display order of the previously drawn panel elements (panel elements 101, 102, and 103 from the left), it responds to the display order of the panel elements 101 to 103 and the operation of the arrow keys 201 to 204 of the remote controller. The specified code is displayed so as to surround the designated panel elements 101 to 103 with a thick line. Each time the user presses the arrow keys 201 to 204 of the remote controller, the position of the thick line on the operation panel moves, so that it is possible to recognize which panel element 101 to 103 is selected.
[0067]
(14) If the user presses the panel element 102 using the selection button 205 of the remote controller 18, the CPU 11 reads out the information of the panel element 102 from the RAM 12 and executes the condition. In the example shown in FIG. 2, since the target device 3 is not connected via the network, the condition of the panel element 102 is “false”. Therefore, panel element 104 is not displayed on the display screen by CPU 11.
[0068]
(15) Then, the CPU 11 determines the action type 413 indicating that the user has pressed the panel element 102, the element ID information 412 of the panel element 102 (described in the area 320 shown in FIG. 8), and the conditional expression 412. The result “false” 414 is transmitted to the target device 2 (S412). These data are collectively called user action data. FIG. 11 shows the user action data format.
[0069]
(16) The target device 2 performs the control determined by the action type 413, the element ID information 412, and the result 414 of the conditional expression in the target device 2, and transmits the response information to the controller device 1 (S413). ). The control performed in the target device 2 is determined in the target device 2 in advance.
In the example shown in FIG. 2, since the panel element 102 is a temporary stop panel, the target device 2 performs control for temporarily stopping control of the device.
[0070]
<When the controller device 1 and the two target devices 2 and 3 are connected>
Next, a case where two target devices 2 and 3 are connected to the controller device 1 as shown in FIG.
FIG. 12 is a diagram showing an example of a transfer sequence of operation panel data between the controller device 1 and the target devices 2 and 3.
[0071]
(1) After turning on the power (turning on the power), the controller device 1 detects the target device 2 and the target device 3 connected via the network by the external device input / output physical unit 15. The detection of the target device 2 and the target device 3 can be performed by, for example, a method defined in the IEEE 1394-1995 specification. The target device 2 and the target device 3 transmit a connection recognition signal including device information (model ID, manufacturer ID, and the like) to the controller device 1 (S501, S502).
[0072]
(2) The CPU 11 in the controller device 1 inputs the connection recognition signal from the target devices 2 and 3 received by the external device input / output physical unit 15 via the external device input / output link unit 14, and outputs the connection recognition signal. The obtained device information of the target device 2 and the target device 3 is stored in the RAM 12.
The CPU 11 assigns a node number to each of the detected (recognized) target devices 2 and 3, and transmits the data to the target devices 2 and 3 (S503, S504).
[0073]
(3) The controller device 1 transmits a confirmation request signal (Gui_update Status command) for confirming whether or not operation panel data is held in the target device 2 to the target device 2 (S505). The transmission of the confirmation request signal is performed under the control of the CPU 11 by a program stored in the flash ROM 13. The confirmation request signal is a signal (command) defined in advance between the controller device 1 and the target device 2, and has a specific format via the external device input / output link unit 14 and the external device input / output physical unit 15. It is transmitted to the target device 2.
[0074]
(4) The target device 2 transmits response information to the controller device 1 as a response to the confirmation request signal (S506). The CPU 11 recognizes from the response information whether the target device 2 holds the operation panel data.
[0075]
(5) Next, in order to receive operation panel data from the target device 2, the CPU 11 secures a plug for establishing a connection when performing data transfer with the target device 2. This “secure plug” does not add a destination address to each piece of data to be transferred, but determines a plug address between devices that transmit and receive data, and transfers data toward the plug address. Necessary for sending together. In this way, when a large amount of image data is transferred, it is not necessary to add a destination address to all packet data, which is advantageous in shortening the transfer time.
[0076]
Specifically, the controller device 1 transmits a plug address notification signal (Allocate_attach command) for notifying the plug address of the receiving side (controller device 1) to the target device 2 (S507). The target device 2 transmits the destination plug address as response information to the controller device 1 as a response to the plug address notification signal (S508). As a result, the transfer destination address is known by both the controller device 1 and the target device 2, so that the plug is connected.
[0077]
(6) The CPU 11 stores the plug address information of the target device 2 obtained from the response information as a response to the plug address notification signal in the flash ROM 13.
(7) The CPU 11 transmits to the target device 2 an operation panel transfer start request signal (Gui_update Start command) for requesting start of transmission of operation panel data (S509).
(8) If transmission of the operation panel data can be started, the target device 2 transmits response information to the controller device 1 as a response to the operation panel transfer start request signal (S510).
[0078]
(9) When an operation panel display request signal is input from the remote controller 18 via the infrared light receiving unit 17 and the serial input / output unit 16, the CPU 11 issues an operation panel request signal (Push_gui_data) requesting transmission of operation panel data. Command) to the target device 2 (S511).
(10) If the operation panel data can be transmitted, the target device 2 transmits response information to the controller device 1 as a response to the operation panel request signal (S512), and further connects with the controller device 1. The operation panel data (Panel_data) is transmitted to the plug address (S513).
[0079]
In the first embodiment, the target device 2 transmits operation panel data of an operation panel capable of displaying the four panel elements 101 to 104 as shown in FIGS.
Here, the panel elements 101 to 104 constituting the operation panel include a unique element ID number, an element type (for example, a button and a toggle switch), and a conditional expression (for example, a target device whose model ID is “x”). When connected, an attached panel element is displayed, and display panel data (for example, bitmap data) is added. Note that the panel element 104 is a conditional child panel element of the panel element 102. As described above, when the user action for selecting (pressing) the panel element 102 occurs, and the target device 3 connects to the network. Panel element that can be displayed when connected via
[0080]
(11) Upon receiving the operation panel data from the target device 2, the CPU 11 temporarily stores it in the RAM 12. Further, the CPU 11 transfers the display panel data of each panel element to the graphic processor 9 based on the received operation panel data, and draws the display panel data in the video memory 28.
[0081]
Here, the graphic processor 9 may simultaneously process video data obtained from a television signal and draw the video data on the video memory 28. In this case, the operation panel from the target device 2 may be overwritten with the television image related to the television signal, or may be drawn at a position shifted so as not to overlap the television image.
[0082]
(12) The graphic processor 9 outputs the data in the video memory 28 to the display device 10 in accordance with the refresh rate of the display screen of the display device 10, and operates the panel elements 101, 102, and 103 received from the target device 2. The panel is displayed on the display device 10.
[0083]
(13) The user using the controller device 1 selects one of the panel elements 101 to 103 using the remote controller 18 while viewing the display screen (operation panel) of the display device 10. The selection of the panel element is performed using the remote controller 18 as described above.
[0084]
(14) If the user presses the panel element 102 using the selection button 205 of the remote controller 18, the CPU 11 reads out the information of the panel element 102 from the RAM 12 and executes the condition. In the example shown in FIG. 3, since the target device 3 is connected via the network, the condition of the panel element 102 is “true”. Therefore, panel element 104 is displayed on the display screen by CPU 11.
[0085]
(15) Then, the CPU 11 transmits to the target device 2 an action type 413 indicating that the user has pressed the panel element 102, element ID information 412 of the panel element 102, and a result “true” 414 of the conditional expression (S514). ).
[0086]
(16) The target device 2 performs the control determined by the action type 413, the element ID information 412, and the result 414 of the conditional expression in the target device 2, and transmits the response information to the controller device 1 (S515). ). The control performed in the target device 2 is determined in the target device 2 in advance.
In the example shown in FIG. 3, since the panel element 102 is a temporary stop panel and the target device 3 (assuming a printer) is connected, the target device temporarily suspends control of the device and displays an image. The control for capturing and the control for transmitting the captured image data to the target device 3 are performed.
[0087]
(17) Next, the controller device 1 communicates with the target device 2 in accordance with the condition code included in the operation panel data transmitted from the target device 2 so that data communication between the target device 2 and the target device 3 can be performed. Connect a plug with the target device 3. If there is no plug connection in the condition code transmitted from the target device 2, the subsequent operation may be performed by the target device 2 instead of the controller device 1.
[0088]
(18) The controller device 1 transmits the node number of the target device 2 and the plug address of the target device 2 obtained in the above process 508 to the target device 3 (S516).
(19) The target device 3 transmits the plug address for receiving data to the controller device 1 as response information (S517).
(20) The controller device 1 transmits the received plug address of the target device 3 to the target device 2 and performs setting for connecting the plug between the target device 2 and the target device 3 (S518 to S521).
[0089]
(21) The target device 2 transmits the still (captured) image data toward the plug address of the target device 3. The transmission of the image data is sequentially performed in a certain packet unit, and the target device 2 receives the response information for confirming whether the data transmission is normal in the certain packet unit from the target device 3 and performs the transfer confirmation. . If the data to be transferred is the last data, the target device 2 sends a “LAST” flag indicating the last data to the header of the data to be transferred, and transmits the data to the target device 3. Are terminated (S522 to S525).
[0090]
Thereby, the target device 3 can print an image related to the image data transmitted from the target device 2.
[0091]
As described above in detail, according to the first embodiment, the controller device 1 performs an operation related to operation panel data (operation panel data having a condition code 314) from the target device 2 including a conditional panel element. When a conditional panel element is selected on the panel by a user operation, the user action data corresponding to the selected operation is transmitted to the target device 2 and the condition added to the panel element is satisfied. No, that is, whether or not the target device specified by the condition is connected via the network is determined based on the device information stored in the RAM 12 in advance. As a result of the determination, when the above condition is satisfied, the controller device 1 changes the operation panel displayed on the display device 10 based on the operation panel data.
[0092]
Thereby, when a plurality of target devices 2 and 3 are connected to the controller device 1 via the network, the controller device 1 can change and display the operation panel according to the connected target device. it can. For example, the controller device 1 checks whether or not the target device 3 is connected, and then instructs an operation that can be executed by the target device 2 when the target device 3 is connected to the panel element ( In the first embodiment, it is possible to display a panel element 104) for printing on the target device 3 an image displayed when the target device 2 pauses.
[0093]
(Second embodiment)
Next, a second embodiment will be described.
In the second embodiment, operation panel data for controlling the target device 3 is prepared in the target device 2 in advance, and the user can select another target device (a second embodiment) connected via a network. Then, control between the target devices 2 and 3 is performed while confirming the information of the target device 3).
[0094]
In the second embodiment, as shown in FIG. 13, the controller device 1 and the two target devices 2 and 3 are connected via a network, the target device 2 is a video deck, and the target device 3 is Let it be a printer.
[0095]
FIG. 14 is a diagram showing a communication sequence between the controller device 1 and the target devices 2 and 3. Note that FIG. 14 does not show control after power ON, plug connection, and the like for convenience of description, but is the same as in the above-described first embodiment.
[0096]
Hereinafter, the operation will be described with reference to FIG.
(1) The controller device 1 operates a target device (video deck) 2 connected via a network. That is, the target device 2 transmits the operation panel data of the operation panel for operating the video deck including the panel elements 101 to 103, and the controller device 1 displays the operation panel corresponding to the received operation panel data on the display screen of the display device 10. Displayed at 105.
[0097]
The target device (printer) 3 is connected to the controller device 1 via a network, and the controller device 1 displays a connection confirmation icon 705 on the display screen 105 indicating that the target device 3 is connected. (FIG. 15A).
[0098]
(2) The user using the controller device 1 selects the panel element 102 to temporarily stop the target device 2 while viewing the display screen 105 (operation panel). The CPU 11 in the controller device 1 transmits user action information (action type, element ID information, etc.) according to the above operation to the target device 2 (S601).
[0099]
(3) The target device 2 recognizes that a pause has been requested by the user via the controller device 1. At this time, since the target device 2 has a function of transmitting image data of an image displayed at the time of the pause to the printer as well as simply suspending, the panel elements 701, 702, And the operation panel data of 703 are transmitted to the controller device 1 (S602).
[0100]
(4) The controller device 1 further displays panel elements 701, 702, and 703 on the display screen 105 based on the received operation panel data (FIG. 15B), and confirms whether the target device (printer) 3 exists. The user is urged to confirm whether or not (connected or not).
[0101]
(5) When the user selects the panel element 702 (S603), the target device 2 transmits the operation panel data of the panel element 704 to the controller device 1 so that the data can be transmitted to the target device 3 ( In step S604, a connection sequence is performed with the target device 3 (S605). At this time, the controller device 1 displays the panel element 704 on the display screen 105 based on the received operation panel data (FIG. 15C).
[0102]
(6) After the connection sequence with the target device 3 is completed, the target device 2 transmits the operation panel data of the panel element 104 to the controller device 1 (S606). Is displayed on the display screen 105 (FIG. 15D). Then, when the user selects the panel element 104 for printing, the target device 2 transmits the temporarily stopped image data to the target device 3 for printing.
[0103]
As described above, according to the second embodiment, when a panel element is selected on the operation panel for controlling the target device 2, the target device 2 receives the received signal from the controller device 1. Operation panel data that prompts the user to confirm whether or not the target device 3 is connected according to the information of the user action corresponding to the selection operation, that is, whether or not the icon indicating the target device 3 is displayed on the display screen. Transmit to the controller device 1. Further, when the target device 2 receives a confirmation result from the user that the target device 3 is connected from the controller device 1, the target device 2 transmits operation panel data corresponding to the result, and the controller device 1 The operation panel displayed on the display device 10 is changed based on the panel data.
Thus, when a plurality of target devices 2 and 3 are connected to the controller device 1 via a network, the user can check information on the connected target device while responding to the connected target device. The operation panel can be changed and displayed on the controller device 1. For example, a panel element for instructing an operation that can be executed by the target device 2 when the target device 3 is connected can be displayed on the controller device 1.
[0104]
The present invention is not limited to the above embodiment. For example, the target device 2 may be an audio device, the target device 3 may be a telephone, and the condition code shown in FIG. In the case (TRUE), when the operation code is set to “send mute command to target device 2”, the telephone (target device 3) becomes, and the audio device (target device 2) is connected when the telephone is connected. Can mute. At this time, the panel element to which the condition code is added is the volume button of the target device 2.
[0105]
(Other embodiments)
In order to operate various devices to realize the functions of the above-described embodiments, a program code of software for realizing the functions of the above-described embodiments is transmitted to an apparatus or a computer in a system connected to the various devices. The present invention also includes those which are supplied and executed by operating the above-described various devices according to a program stored in a computer (CPU or MPU) of the system or the apparatus.
[0106]
In this case, the program code itself of the software realizes the function of the above-described embodiment, and the program code itself and a unit for supplying the program code to the computer, for example, the program code is stored. The recording medium constitutes the present invention. As a recording medium for storing such a program code, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a magnetic tape, a nonvolatile memory card, a ROM, and the like can be used.
[0107]
When the computer executes the supplied program code, not only the functions of the above-described embodiments are realized, but also the OS (operating system) or other application software running on the computer. It goes without saying that such a program code is also included in the embodiment of the present invention when the functions of the above-described embodiment are realized in cooperation with the above.
[0108]
Further, after the supplied program code is stored in a memory provided in a function expansion board of a computer or a function expansion unit connected to the computer, a CPU provided in the function expansion board or the function expansion unit based on an instruction of the program code. It is needless to say that the present invention includes the case where the functions of the above-described embodiments are implemented by performing some or all of the actual processing.
[0109]
【The invention's effect】
As described above, according to the present invention, even when a plurality of controlled devices are connected to a control device, it is possible to display an operation panel corresponding to the plurality of connected controlled devices, and An operation (service) can be performed between the controlled devices. For example, a display screen printing for printing an image displayed by a pause can be performed between the controlled devices.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a control system according to first and second embodiments.
FIG. 2 is a diagram for explaining an operation panel when a controller device and one target device according to the first embodiment are connected.
FIG. 3 is a diagram illustrating an operation panel when a controller device and two target devices according to the first embodiment are connected.
FIG. 4 is a diagram showing an example of a transfer sequence of operation panel data between a controller device and one target device.
FIG. 5 is a diagram showing an example of a data format of a panel element.
FIG. 6 is a diagram showing an example of a condition code.
FIG. 7 is a diagram illustrating an example of a condition command.
FIG. 8 is a diagram illustrating an example of a logical code.
FIG. 9 is a diagram showing an example of an operation code.
FIG. 10 is a diagram illustrating a configuration example of a remote controller.
FIG. 11 is a diagram illustrating an example of a data format of user action data.
FIG. 12 is a diagram showing an example of a transfer sequence of operation panel data between a controller device and two target devices.
FIG. 13 is a diagram illustrating a connection example of devices according to the second embodiment.
FIG. 14 is a diagram illustrating an example of an operation sequence by a controller device and two target devices according to the second embodiment.
FIG. 15 is a diagram illustrating an example of an operation panel according to the second embodiment.
[Explanation of symbols]
1 Controller device
2,3 Target equipment
4 Antenna
5 Tuner
6 descrambler
7 Demultiplexer
8 MPEG decoder
9 Graphic processor
10 Display device
11 CPU
12 RAM
13 Flash ROM
14 External device input / output link section
15 External device input / output physical unit
16 Serial input / output unit
17 infrared receiver
18 Remote control
21 Modem
22 Network server
23 broadcasting stations
25 Audio Decoder
26 Mixer
27 Voice Processor

Claims (26)

Receiving an operation panel to which a logical condition relating to connection of a second controlled device different from the first controlled device is added, which is transmitted from the first controlled device connected via the network, Display control means for displaying an operation panel for controlling the first controlled device on a display means based on the operation panel;
Selecting means for selecting control to be performed on the first controlled device from the operation panel;
Selecting information transmitting means for transmitting selection information by the selecting means to the first controlled device,
The control device, wherein the display control means can change an operation panel displayed on the display means based on the selection information and the logical condition. A storage unit that receives and stores the device information transmitted from the controlled device,
The display control means determines whether or not the second controlled device is connected, based on the device information stored in the storage means, according to the selection information, and according to the determination result, The control device according to claim 1, wherein an operation panel displayed on the display unit is changed. The display control means receives a new operation panel transmitted from the first controlled device as a response to the transmission of the selection information, and causes the display means to display the new operation panel in accordance with the operation panel. The control device according to claim 1, wherein? 4. The control device according to claim 1, wherein the control device is a display device or a television receiving device capable of displaying an image related to image data received from a controlled device connected via a network. The control device according to item 1. A data output device that can be controlled by a control device connected via a network and has a function of outputting at least one of image data and audio data,
A logical condition relating to connection of a controlled device different from the data output device can be added, and panel information transmitting means for transmitting an operation panel for controlling the data output device to the control device;
Selection information receiving means for receiving selection information regarding the control selected from the operation panel from the control device,
A data output device comprising: an operation control unit that controls an operation inside the data output device based on the selection information received by the selection information receiving unit. 6. The data output device according to claim 5, wherein a new operation panel is transmitted according to the selection information received by the selection information receiving unit. A control device capable of receiving and outputting at least one of image data and audio data from at least one or more controlled devices connected via a network,
Storage means for storing device information from the controlled device,
Display control means for receiving an operation panel transmitted from the controlled device, and displaying an operation panel based on the operation panel on a display means;
Selecting means for selecting the operation panel;
Selection information transmission means for transmitting the selection information by the selection means to the controlled device,
A control device, comprising: decoding means for decoding a logical condition added to the operation panel; and changing display contents of the operation panel based on the logical condition. The control device according to claim 7, wherein the display content of the operation panel is changed according to at least one of a model and a manufacturer name of the controlled device connected via a network. 9. The control device according to claim 7, wherein condition data describing the logical condition is received in a pair with panel element data constituting the operation panel. The control device according to any one of claims 7 to 9, wherein a new operation panel is displayed when the display content of the operation panel is changed. The control device according to any one of claims 7 to 9, wherein the operation panel being displayed is changed to a non-display or a translucent display when the display content of the operation panel is changed. The control device according to any one of claims 7 to 9, wherein, when the display content of the operation panel is changed, the operation panel being displayed is displayed in an enlarged display or a reduced display. The control device according to any one of claims 7 to 9, wherein a volume of an audio output is changed based on the logical condition. The control device according to any one of claims 7 to 13, wherein the control device is a display device or a television receiving device. The control device according to any one of claims 7 to 14, wherein the controlled device is a video deck and a printer. The control device according to any one of claims 7 to 15, wherein the network is a network based on the IEEE 1394 standard. A data output device having a function of outputting at least one of image data and audio data to a display device,
Panel information transmission means for transmitting an operation panel of the data output device;
Selection information receiving means for receiving information selected on the operation panel,
Operation control means for controlling the data output device based on the information received by the selection information receiving means,
A data output device comprising: condition transmitting means for transmitting a condition for displaying an operation panel based on the operation panel on the display device together with the operation panel. The data output device according to claim 17, wherein the condition relates to a controlled device different from the data output device connected to the display device. A data output device having a function of outputting at least one of image data and audio data to a display device,
Panel information transmission means for transmitting an operation panel of the data output device;
Selection information receiving means for receiving information selected on the operation panel,
Operation control means for controlling the data output device based on the information received by the selection information receiving means,
A data output device, wherein the operation panel is prepared for each controlled device different from the data output device connected to the display device, and all the operation panels are transmitted simultaneously. A data output device having a function of outputting at least one of image data and audio data to a display device,
Panel information transmission means for transmitting an operation panel of the data output device;
Selection information receiving means for receiving information selected on the operation panel,
Operation control means for controlling the data output device based on the information received by the selection information receiving means,
A data output device, comprising: condition result receiving means for receiving a result of a condition for displaying an operation panel based on the operation panel on a display device. 21. The data output device according to claim 20, wherein a control command is transmitted to a controlled device different from the data output device connected to the display device according to a result of the received condition. The data output device according to any one of claims 17 to 21, wherein the operation panel is transmitted via a network conforming to the IEEE 1394 standard. Receiving an operation panel to which a logical condition relating to connection of a second controlled device different from the first controlled device is added, which is transmitted from the first controlled device connected via the network, Display means for displaying an operation panel for controlling the first controlled device based on the operation panel;
Selecting means for selecting control to be performed on the first controlled device from the operation panel;
Selecting information transmitting means for transmitting selection information by the selecting means to the first controlled device,
A control system, wherein an operation panel displayed on the display means can be changed based on the selection information and the logical condition. Receiving an operation panel to which a logical condition relating to connection of a second controlled device different from the first controlled device is added, which is transmitted from the first controlled device connected via the network, A display control step of displaying an operation panel for controlling the first controlled device on display means based on the operation panel;
A selection step of selecting control to be performed on the first controlled device from the operation panel;
A selection information transmitting step of transmitting selection information by the selection in the selection step to the first controlled device;
A display changing step of changing an operation panel displayed on the display means according to the selection information and the logical condition. Receiving an operation panel to which a logical condition relating to connection of a second controlled device different from the first controlled device is added, which is transmitted from the first controlled device connected via the network, A display control step of displaying an operation panel for controlling the first controlled device on display means based on the operation panel;
A selection step of selecting control to be performed on the first controlled device from the operation panel;
A selection information transmitting step of transmitting selection information by the selection in the selection step to the first controlled device;
A display change step of changing an operation panel displayed on the display means according to the selection information and the logical condition. Receiving an operation panel to which a logical condition relating to connection of a second controlled device different from the first controlled device is added, which is transmitted from the first controlled device connected via the network, A display control step of displaying an operation panel for controlling the first controlled device on display means based on the operation panel;
A selection step of selecting control to be performed on the first controlled device from the operation panel;
A selection information transmitting step of transmitting selection information by the selection in the selection step to the first controlled device;
A computer-readable recording medium on which a program for causing a computer to execute a display change step of changing an operation panel displayed on the display means according to the selection information and the logical condition is recorded.

Images